Electric-arc lamp.



T. E. ADAMS.

ELECTRIC ARC LAMP.

APPLICATION FILED APB..16, 1909.

Patented July 9, 1912.

7 8HEETSSHEET 1.

W T N w WITNESSES T. E. ADAMS.

ELECTRIC ARC LAMP. APPLICATION FILED APR.'16, 1909.

1,032,263, Patented July 9,1912.

7 SHEBTSSHEET 2.

INVENTOR g] T NESSI ES 2 Allarney T. E. ADAMS;

ELECTRIC ARC LAMP.

APPLICATION FILED APR. 16, 1909.

1,032,263. Patented July 9,1912.

7 SEEETSS HEET 3.

THE. ADAMS.

ELECTRIC ARC LAMP.

APPLICATION FILED APRJG, 1909.

1,032,263. A Patented July9,1912.

7 SHEETS-SHEET 4.

lmuunmmnllllllli I 5mm mmglmw "A 4 v v I [NVEN 70R Attorney T. E. ADAMS. ELECTRIC ARC LAMP.

APPLICATION FILED APR. 16, 1909.

Patented July 9, 1912.

, 7 SEEETSSHEBT a.

siii EH u 0 \wlul WI uu L-IL-III Ni. ill! a wi -T. EJADAMSF ELECTRIC ARC LAMP.

APPLIOATION IILED APR. 16, 1909.

t 32,263. Patented July 9, 1912. ,A v 7 SHEETSfSHEETIB- T. E. ADAMS. ELECTRIC ARC LAMP. APPLIOATION FILED APBUIS, 1909.

Patented July 9, 1912 7 SHBETS-SHEET 7.

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, STATES A EN QFF CE? THbMAS E-DGARIADAMS, or CLEVELAND; OHIO, ASSIGNOR To (THE DAMs-BA NAILL I ELECTRIC co v'rPAnY; or CLEVELAND, OHIO.

ELECTRIGrARC LAMP.

To all w/wmjtmay concern: t a I Be it known that I, THoMAsE. ADAMS, of Cleveland, in the county .of Cuyahoga and State of Ohio, have invented certain new and useful Improvements in Elect-ric-Arc Lamps; and I do hereby declarethe follow- 'ing to be a full, clear, and. exact description of the invention, such as will enable others skilled in the art to which itappertains to make anduse thesame: I

' Thisinventi'on relates to improvements in electric arc la1nps,-one object of the irivention being to so construct an electric arc lamp that it 1 will operate accurately with the use of metallic electrodes.

A further object is to soconstruct anelectric arc lamp employing metallic electrodes,

that it can be successfully started regard;

electrode will be initially heated to increase its conductivity incase its electrical contact with the upper electrode is poor when current first enters the lamp.

A further object is to so construct starting means for an arc lamp employing metallic electrodes, that a preliminary are will be established in proximity to the end of the 'lower electrode if the electrical contact of the latter with the upper electrode is poor.

A further object is to improve the eonstruction and mode of application of a metallic upper electrode in an arc lamp employing metallic electrodes.

A further object is to construct an arc lampin such manner that the establishing and regulating of the arc shall be effected by manipulation of the. upper electrode, and

so that the feeding will be effected by movement of the lower electrode. I

-A further object is to provide simple and eflicient devices for manipulating the electrodesin the starting, regulating and feeding' operations of the rmp.

further object is to so construct the mechanism of an electric arc lamp that whenthe lower electrode has been consumed, the

-Speeiflcation of Letters Batent.

regulation of the upper electrode will cease andthe lamp be automatically cutout.

Patented Ju1y9,1912.* Application filed April 16, 1909: Serial No. 490,316.

'A further object is to construct .thelamp i in such manner that the casing will afford extensive surface for the collection ofde- 6,0

posits from fumes and gases andenable the operating mechanism to withstand the effect of such deposits.

A, further object is to provide-means to collect hot metal globules or slag dropping from the upper end of the lower electrode and prevent the same from breaking the globe or escaping from thelatter; v i

A further object is to improve the coni struction of an electric arc lamp in other Y respects as will be hereinafter pointed out.

, Withthese objects in view, the invention. consistsin certam novel features of construction and combinations of parts; as hereinafter described and specified 1n the claims. v v

In the accompanying drawings :--Figure 1 is a vertical sectional View of an electric is a sectional View at right angles to Fig. 1; Fig. 3 is a plan view of the regulator mechanism; Fig. 4 is a bottom view of the same;

Fig. 5 is-a transverse sectional .viewfFigs. 6, 7, and 8 are sectional views on;l1nes -00.:

am lamp embodying myinventionyFig. 2

yy and 2 -2 respectively on Fig. 3. Figs. i

9, 10,'1l and 12 are .views showing the devices for manipulating the electrodes and Figs. 13, 14c and 15 are detail views. Fig. 16,

is a diagrammatieal view.

1 represents a'casing preferablyof sheet metal, to the upper end of which a cast metal ring 2 is secured and within the lower port-ion of the shell or casing 1, a depending,

bowl 3 having a central opening, is secured. A globe cover 4 encircles the bowl 3 and is held in place by means of a .Wire ring 5 lb-@ I cated in a groove above a flange 6 depending from the bowl.

The cover also. servesto.

support a resistance coil 7 whichis utilized n the operation of thelamp as hereinafter explained. The resistance coil is supported,

in insulating rings 8 under theov'erhanging lower end of the casing l and said resistance is inclosed by a perforated ring 9 supported on the cover 4. I l

The top of the shell or casing 1 is pro-, vided with a cap or hood 10 secured to the ring 2. The cap or hood is provided with an opening 11 in its top and over this opening, a plate 12 is supported by means of short posts 13. Suitable suspending devices 14 for the lamp are carried by the plate 12. A platform 15 having a central opening, is located at the top of the casing for sup' porting the electro-magnetlc controlling mechanism as hereinafter explained and it flange 16 of this platform is disposed between the ring 2 and the cap or hood 10 so that it will be secure 1 in place by means of the same fastening devices which secure the hood to said ring.

A globe 17 is adapted to inclose the eleotrodes of the lamp and is provided with a holder 18 to be removably connected with the cover 4 in any suitable manner. The

, globe may have a general pear shape with a partly spherical portion 19 at its lower I end, having an opening 20 in its .bottom.

With the construction of casing, hood and globe, as above'described, a free circulation of air will be permitted upwardly through the globe, casing and hood, and this circulation'of air will operate to convey gases and fumes generated at the arc, upwardly through the casing and permit their exit through the opening in the top of the hood.

' Gas or fumes from an are between metalli c electrob ies will cause a deposit within the casing, which latter, in effect constitutes an expansion chamber for the gases or fumes and afi'ords an extensive surface on which the deposit may collect. The casing thus constituting a large passage for the escapin gases, will not soon become clogged wit deposit as is liable to occur when small fiues are employed.

With the use of metallic electrodes (such, for instance, as a lower electrode of ferrotitanium), a sort of slag is formed at the arc, and this slag drops from the top of the lower electrode in the form of globules. By providing the globe with a partly spherical portion 19 at its lower end, these globules of slag will engage the "inner surface thereof at such an angle as to avoid breaking the globe, and the partly spherical surface will irect such slag into a pan 20 supported in the bottom of the globe, thus preventing the same from escaping through the bottom of the globe. The pan '20 is provided on its bottom with projections 21 to prevent the same from closely fitting the bottom of the spherical portion 19 and closing the opening therein, and to further guard against too greatly restricting the passage of air into and-through theglobe, the pan 20- is provided with bpenings 22, which are overhung by lips 23 to prevent the escape of slag through saiiopenings.

26, preferablyvhaving an angular external configuration, is disposed. The weight-casing and tube are held in place by a bracktitt 27 secured thereto and resting on the bowh or lamp floor 3. A box 28 is located over the weight casing 24 and tube 26 and in this box, .a pulley 29 is mounted. A chain 30,

attached at one end to the Weight 25, passes over the pulley 29 and at its other end, this chain is' connected with the upper end of a rod 31 movable longitudinally in the tube 26. The rod 31 is adapted to depend some distance below the lower end of the tube 26 and at its lower end is provided with a holder 32 for the lower electrode 33, which, in the present instance is preferably of the metallic type containing ferro-titanium.

In proximity to the lower end of the tube 26 a bracket 34 is secured thereto by means of a screw 34, said bracket beingsuitably insulated from the tube, and this bracket supports insulated ears 35 with which a link 36 is pivotally connected. With the other end of the link 36, a clutch 37 is pivotally connected and provided with an opening for the passage of the rod 31. A spring 38 bearing against the link 36 and clutch 37 Serves to cause the latter to normally bind against the rod 31 to prevent movement of the latter and the lower electrode carried thereby. The clutch 37 is provided with an arm 39 carrying 'an insulatmg disk or roller 4C0 at its free end to be engaged bya device hereinafter described, for moving the clutch and releasing the lower electrode rod 31. When such release occurs, the weight 25 will be free to move the rod upwardl to effect the feeding of the lower electro e.-

A yoke 40 (which may consist'of an .iron casting) is pivotally supported between its ends by the bracket 34 at the lower end of the tube 26 and the pivot pin 40 for this yoke may be normally retained in position by means of a screw 41. in the bracket 34. The yoke 40 embraces the tube 26 without contact therewith and at its rear end, said yoke is provided with weighted arms 42 which may be made to conform to the contour of the depending flange of the lamp floor or bowl 3, said weighted arms being.

secure the upper electrode in place and per- I mit its ready removal, renewable plates 45 are disposed alongside the jaws 42 of. the yoke 4:0 and said plates are provided with lugs/16 to be disposed between. the head of the electrode and the freexends of said jaws.

A bolt 4:7 passes through the plates 15, the

j aws 42 and the shank of the electrode and provided at one end with a head to engage a lug 48 on one of theplates 45to prevent the bolt from turning. The other end of the bolt 47 is threaded for the reception of a nut 49. The shank of the upper electrode can be thus firmly'clamped between the jaws 42 ofthc yoke 40 by means of devices which are readily renewable.

A finger or plate 50 is adjustably secured to the yoke 40 in position to engage the arm 39 of the clutch 37 for tripping the latter to ,permit the feeding of the lower electrode 'as hereinafter described. A- finger 51 is secured to the outer portion of the yoke in positionto engage the bracket 34 for limiting the upward movement of the yoke and the'upper electrode carried thereby.

With the use of metallic electrodes, poor electrical contact of one with the other is sometimes caused on account of corrosion or from other cause, and the prompt and the electrical contact of the electrodes may be so poor as to render the formation of an are between them impossible when the current first enters the lamp. A starting finger 52 is pivotally supported near its upper end .between the members of the yoke 40 and is of such length that it can engage the lower electrode some distance below'the upper end of the latter, and in orderthat the portion of the finger which engages the electrode can be renewed when necessary, said finger is made in two parts removably secured together. A bell-crank 53 is pivoted between the upper ends of the jaws 42 of the yoke 40 and the lower arm of this bell-crank is connected, by means of a pivoted link 54 with the starting finger 52 above the pivotal support of the latter. To the other arm of the bell-crank, the lower end of a 'rOd 55 is pivotally attached. The upper end of the rod 55 is'provided with an adjustable member.55 having an elongated slot' 56 for the passage of a pin 57 which connects it with a bracket 58 secured to a vertically' movable armature 59. The slot andpin connection for the upper'end ofthe rod 55, will permit the weight of the latter to be normally exerted (when the lamp isout of circuit) to press the starting finger against the lower electrode and insure electrical.

contact therewith, The downward movement of the rod 55 will however, be limited by engagement of a pin 60 thereon with a stop 61 on the lamp, casing, for a purpose which will hereinafter appear. It will be observed that, in order to afford proper space for the starting: finger, the electrodes are disposed out of alinement with the ver controlling mechanism presently to be described, it will operate first to move the starting finger 52 to move laterally away from the lower electrode and thus establish a preliminary or starting are between said finger and electrode. The continued upward movement of the rod 55 will cause the yoke 40 to be turned on its pivotal support and the upper electrode to be raised for the purpose of establishing the normal are between the two electrodes. 1 The natural tendency of the preliminary or starting arc above'mentioned, to travel upwardly, will result inso heating the electrodes as to render them more readily conductive, at which .time the arc will forsake the starting finger and will persist between the two electrodes, thus establishing the normal working arc.

A coarse wire magnet 62 and a fine wire magnet 63 are located over the platform 15 and disposed at respective sides of the central opening in the latter. The pole pieces 62 and 63 of these'magnets pass through the platformand depend a short distance below the same. The depending pole jpieces support two brackets 64-65 of nonmagnetic metal and' these" brackets may also be secured to the bottom' of the platform. The brackets 64 65 are made respectively, with housings 66 and 67 in which the respective arms. 68-69 of an armature yoke 70 are .pivotally mounted, said arms 6869 being located at one side of the longitudinal axis of the armature, yoke. This yoke is preferably made of brass and has secured to respective sides-thereof, armatures 59 and,

71 adapted to codperate, respectively, with the pole pieces of the coarse and fine wire magnets. A dash pot 72 communicates at its lower end with the housing 66 on. bracket 64 and rises through the platform 15. An arm 73 projects fromtheyoke-arm 68 Within the housing 66'and is connected at its free end with the rod of the plunger 74 in the air pot. This construction serves to steady the movements of the armatures and parts which they actuate. y

The bracket 65 is made with a sleeve 75, through which a tubular conductor 76 passes and from which it is insulated. The

upper-end of thisconductor is provided with I an arm 77 having a binding post 78 for the plus leading-in wire 7 9-. A conductor 80 is electrically connected with the arm 77 and enters the housing 67 where it is electrically connected with a contact finger 81 located within said housing, 'A binding post 82 .at the upper end of theconductor 80 servcs'to,

67 and electrically connected with a conducting post 84 provided at its upper end with a binding post 85. At the opposite sideof the housing 67 from the'sleeve 75, the bracket 65 is made with another sleeve 85 and through this sleeve, a tubularconductor 86 passes and from which said conductor is suitably insulated. The tubular conductor 86 is provided at its upper end with an arm 87 which Constitutes the negative terminal of the lamp, said arm being provided with a binding post 88 for the reception of the minus leading-in wire 89. A conductor post 90 passes through and is insulated from the tubular'conductor 86 and the upper end of this postis electrically connected with the upper end of the conductor post 84. .The lower endof the conductor post or red 90 is provided with abinding post 91 for the re ception of one end of a conductor 92 within .the lamp casing. The other end of the con- The arm 69 of the armature yoke 70 has pivotally attached thereto, a contact block 97 adapted to span the contact'fingers 81 and '83, and as the armature yoke is pivotally supported at one side of its longitudinal axis, or nearer to armaturefor the fine wire magnet; than to the armature for the coarse wire magnet, the weight of the last-mentioned a rmature will cause the yoke to be so disposed (when no current is passing;

through the lamp) as to cause the block 97 to electrically connect the fingers 81-83 and thus close the circuit in which the circuit closer thus formed, is included.

From the above description and by inspec-.

tion of the diagrammatieal view Fig. 16, it

willbe seen that normally, a closed cut-out circuit exists between 'the lamp terminalsand that this circuit includes the circuit closer above described and the resistance coil 7L It has been hereinbe fore stated that one end-of the coil of the fine-wire magn'et is connected with theplus terminal arm 77, The other tcrminal-ofthis coil is connected by a conductor 98, with the negative ternue nal arm 8-7, so that the coil of said fine-wire magnet is included in a constantly closedcircuit which shunts the are, as clearly shown in the diagram, Fig. 16.

. The lower end of the tubular conductor 76 in sleeve (withwhich conductor the plus terminal of the lamp is connected) isprovided with a binding post 99 for the reception of a conductor 100, the other end of which latter is connected with an ad ustable contact sleeve 101 on a'resistance co l 102. The resistance coil 102 is wound upon but insulated from a metal rod 103 supported by but insulated fromthebra'cket 27 and at its lower end, the resistance coil 102 is electrically connected with said rod;; The i upper -end of the rod 103 is connected, by 1 lIlGflIlS'Of a short conductor 104, with a bind-- ing postv 105 at the lower end of'a conductor post 105 which passes through (but insulated from) the tubular conductor 76. The upper end of the conductor post.

105 is provided with a. bindin' post 106, bymeans of which a terminal 0 the coil of the coarse wire magnet is connected, the I other terminal of said coil being'con'nected,

g? before stated, with. the plus terminal arm the yoke 40 which carries the upper. electrode and said yoke is electrically connected, by means of a conductor 109,.with the,starting finger 52. The binding post 94 with which one endsof the resistance? is connected, is also connected by means of a conductor with a binding post "111 at Thelower end of the rod 103 is con-v1" nected, 'by'means of a conductor 107, with the lower end of the tubular conduetor,86

with which: latter the minus terminal 'arm- 87 is electrically connected.

Y From the abovedescriptio'n and inspection of the'Diagrani Fig. 16, it will be seen that one end of-the coarse wire coil is connected with the plus terminal of the lamp,

and the other end of said'coil is connected,

with the upper electrode,- while the lower electrode is connected with the negative ter-' hiinal of the lainp,the coil' of the-coarse wire magnet being thus disposed in series with theelectrodes when the lamp is in. op-

eration. It will also be seen that the adjustable resistance 102 is arranged across the terminals ofthe-coil of the coarse wire,

magnet for the purpose of providing means whereby, the length of the arc'may be con;

trolled. I

The lamp operates as i lows :When the currentfirst-enters the it will findtwo iio paths exclusive of the 'fine wire shunt'm'agnet;v one through the cut-out circuit includ.-.

ing the circuitcloser andthe resistance 7, and the othercircuit', through the coil'o'f the coarsewire magnet; (theamount of cur; 'rent tlirou 'h the coarse wire coil being governed by tile adjustable resistance 1027and the upper and lower electrodes to the negative terminal of the lamp. Iftlie lamp be not trimmed, the main current w ll traverse the first mentioned circuit including-the circuit closer and the resistance 7, but in the Diagram Fig. 16 it is assumed that the lamp has been trimmed, and hence twofcircuits will be established in parallel. One of these circuits includes the magnet 62 and the .elec-;

trodes, andtlie olhe'r. circuit includes the circui tcloser. li83-97-and the resistance a T t i iiiitt iStanccsjof these parallel I 45 1 the feeding is accomplished by the lower have been thus opened, the full current will flow'through theother parallel circuit. The

resistance tothe passage of the current than weight to raise the lower electrode, thus tlIlCG-- V v armatureand cause the separation of the starting finger from contact with thelower electrode.

electrode with thraother is poor, a prelimitween the starting finger and the lower electrode,-it being. understood that as soon as the control of the lamp, in controlling the upper electrode cannotbe further regulated circuits are such that the magnet 62 will be energizedsufficiently to move the armature lever farenoughto open the parallel circuit including the resistance 7 but not suificiently to operate the starting finger; As soon as the circuit including the resistance 7 shall coarse wire magnet being now further strengthened bythe current previously in the cutout oircult, will continue to raise'its If the conductivity of the contact between the upper and lower electrodes is .good, no arc w ll appear between the starting finger and the lower electrode, but if the conductivity of such contact of one nary or starting are will appear-between the lower electrode and starting finger and will continue even after the upper separates from the lower electrode. The tendency of this preliminary or starting arc will be'to travel upwardly and will soon heat the conand lower electrodes, because the contact between the heated electrodes will oifer less will'be oifered by the preliminary ar'c bethe preliminary arc forsakes the starting finger, the electrodes will be separated to establish a normal are between them.

The 'fine wire. shunt magnet operates in feed as in'the well known type of differential regulators. 4

It will be observed that the establishing and regulation of the arc is accomplished by manipulating the upper, electrode, but that electrode. Thus, the upper electrode 'will be caused to regulate downwardly until the yoke 40 trips the clutch, when the latter will operate to release the rod 31 and permit the causing the latter to be fed upwardly to maintainthe continuity ofthe arc. When the lower electrode has been consumed, the

downwardly lower than the stop 61 will permit, the-latter:operating to prevent the starting finger from touching the lower electrode. 'c'lhe coarse wire magnet will now be deprived of current and the armature yoke will therefore lee-permitted to rock and close thcicut-ont circuit through the resist- Having fully described my invention what 1. In an electric arc lamp, the combina-' tion with means for carrying a lower electrode, of a pivoted yoke for carrying the upper electrode, a pivoted starting finger carried by the yoke and depending below the same to engage the lower electrode, and 1 means operating to first move the starting finger independently of the yoke from the lower electrode and then more the yoke to separate the upper from the lower electrode.

2. In an electric arc lamp, the combination with a carrier for the lower electrode, of a pivoted yoke provided with upper electrode holding means, a starting finger pivoted between its ends to said yoke and depending therefrom sufficiently to engage the lower electrode below its upper end, and means connected with said starting finger for moving the latter from the lower electrode and then raising the free end of the pivoted yoke to separate the upper from the lower electrode.

3. In an'electric arclamp, the combination with a lower electrode carrier, of a pivoted yoke provided with upper electrode holding. means, a starting finger pivoted between its ends to said yoke and depending therefrom sufliciently to engage the lower electrode below the upper end of the latter, a bellcrank having one arm connected with said starting finger, a rod connected with the other arm of the bell-crank, and electroseparate the upper from the lower electrode.

4. In an electric arc lamp, the combination with-a lower electrode, of a yoke pivotally supported between its ends and havingone end weighted, the free ends of the members of said yoke constituting jaws,'an

magnetic means for'actuating saidrod to first move'the starting finger away from the lower electrode and then raise the yoke to i upper electrodeheld by said jaws, means for raising saidyoke to separate the upper from the lower electrode, and means for feeding the lower electrode.

5. In an electric arc lamp, the combination witha lower electrode carrier, of pivotally supported yoke having jaws at the free ends of its members for the reception of'the upper electrode, a starting finger pivoted between its ends to the yoke and depending therefrom sufiiciently to engage the lower electrode below the upper end of the latter, a bell-crankpivoted between the jaws of the yoke, a connection between one arm of the bell-crank and said starting finger,

tion with a lower electrode carrier and the armature of a regulator magnet, of a pivoted yoke provided at one end with holding means for an upper electrode, a pivoted starting finger carried by said yoke and depending therefrom sufficiently to engage the lower electrode below the upper end of the latter, a bell-crank pivoted to the yoke and having one arm connected with the starting finger, a rodcommcted. with the other arm of the bell-crank, and a lost motion connec- :tion between said rod and the armature of the regulator magnet.

\ tion on said rod, and a fixed stop to be engaged by said projection to limit the downgward movement of the yoke carrying the upper electrode when the lower electrode has ea consumed. AID an electric arc lamp, the combina- "-tiomwith a lower electrode carrier, of a ivotetit tgoikehaving jaws at the free ends 0 its niembersfanupper electrode havin a shank to enter between said jaws, means or securmg said'upper electrode in place, a lower electrode, and means. for moving the yoke to separate the upper'from the lower electrode. I

9. In an electric arc lamp, the combination with a frame, of a yoke pivotally supported thereby and having jaws at the free ends of'its members, an upper electrode having a shank to enter between said jaws, blocks disposed against said jaws and having lugs to enter between the ends of the jaws and'the'body of the electrode, a removable: bolt passing through the blocks, the jaws and the shank of the electrode, and a holder for a lower electrode to cooperate with said upper electrode.

10. In an electric arc lamp, the combination with a pivoted member carrying an upper electrode, and an electro-magnetic regulator having its movable member connected with saidpivoted member, of a vertically movablerod provided with alower electrode holder, ,lowe'r e'lect'rqde,'a weightconnected with sad rod ,for moving 'it' upwardly, a

,clutch engaging said rod, and an arm on said clutch in position to be tripped by the pivoted member which carries the upper electrode and effect the feeding of the lower electrode to maintain the are,

11. In an electric arc lamp, the combination with a pivoted yoke carrying an upper electrode, and. an electro-magnetic regulator having its movable member connected with ,said yoke, of a vertically movable rod provided with a lower electrode holder, a lower electrg tle a weight connected with said rod for-movihg it upwardly, a clutch engaging said rod, and an arm on said clutch in p0-' sit-ion to be tripped by the yoke which carriesthe upper electrode and eflect the feeding" off the lower electrode to maintain the arc.

122 In an electric arc lamp, the combina tion with a frame, a tube and a casing supported in the same, and a pivotally supported yoke carrying an upper electrode, of

vLa rod verticallymovable in said tube and rovided with a lower electrode holder, a ower electrode, a weight insaid casing, a pulley at the top of the casing, a chain passing over said pulley and connected with said weight and the vertically movable rod, a clutch for said rod, an arm on the clutch in position to be tripped by said yoke, and

electro-magnetic means for controlling the movements of said yoke to move the upper electrode in establishing and regulating the arc and control the lower electrode to maintain the arc.

13. In an electric arc lamp, the combination with a frame, a casing therein, and a tube secured to said casing and depending from the lamp, frame, of a vertically movable rod in said casing and depending below the same, a lower electrode holder at the lower end of said rod, a weight in the casing within the lamp frame, a pulley over said casing, a chain passing over said pulley and connected at its respective ends with the weight and tire vertically movable rod,

clutch supported b gsaid tube and engaging the vertically movable rod, a pivotally supported yoke, an upper; electrode carried by said yoke, an arm on\the clutch to be engaged by said yoke, and electro-magnetic means for controlling the movements of said yoke. j v

14. In an electric arc lamp, the combination with a frame, a-tube secured thereto and depending therefrom, a vertically movable rod in said tube provided at its lower end with a lower electrode holder, a weight connected with said rod for raising the same and-the lower electrode holder, and a bracket secured to said tube, of a clutch for said rod'pivotally supported by said bracket,

said clutch having a trip arm, aweighted' riers for electrodes,

Eorted by said latform, brackets supported y the poles or said magnets, an armature yoke having armatures for-said" magnets and provided with arms mounted in said brackets,- an airpot cylinder projecting from one of said brackets, a plunger in said air pot cylinder, an arm on one of the yoke arms and connected with said plunger, carand. devices connected. with one end of the armature yoke for conro'llin said electrode carriers. A

16. 11 an electric arc'lamp, the combination with a frame, a platform therein, and carriers for electrodes, of electro-magnets supported by said platform, brackets secured to the poles ofsaid magnets and provided with housings, an armature yoke pro vided wlthiarmetnres for, saidmagnets and having arms mounted in said housings, cone tact lingers in one of said housings, a con tact clock carried by the adjacent yoke and said contact fingers and block constituting a circuit closer included in a cutout circuit ings for the movable member of the regu- I I lator mechanism, one of said brackets made with sleeves and carrying the varions termlnal connections of the lamp, and devices connected with the movable member of the regulator for controlling the operation of the electrode carriers.

In testimony whereof, I have signed this s ecification in the resence of two subscrib- P ing witnesses.

v THOMAS Witnesses: 4

G. C. PAXTON, JOHN R. Onrnrr.

EDGAR ADAMS. 1 

